Oral motion preservation device

ABSTRACT

A device for the treatment of bruxism may include an articulation plate worn on one of the upper or lower jaw and coupled to a bite plate worn on the other of the upper or lower jaw. Posts extending from one of the bite plate or articulation plate into housings in the other of the bite plate or articulation plate may couple the bite plate and articulation plate. The posts may include a solid, flexible material to allow for relative movement of the coupled bite plate and articulation plate. First articulating components on one of the bite plate or articulation plate may engage second articulating components on the other of the bite plate or articulation plate to allow for 360 degree articulating motion between the bite plate and articulation plate. A damper may adjust a distance between teeth received in the bite plate and teeth received in the articulation plate.

CROSS REFERENCE TO RELATED APPLICATION(S)

This application is a continuation application of U.S. application Ser. No. 14/622,024, filed Feb. 13, 2015, which claims priority to Provisional Application Ser. No. 61/939,586, filed on Feb. 19, 2014, the entirety of which are incorporated by reference as if fully set forth herein.

FIELD

This document relates, generally, to an oral device, and in particular, to an oral device for the preservation of natural mandibular motion and prevention and/or reduction of bruxism.

BACKGROUND

Bruxism generally refers to the excessive grinding and/or gnashing of the teeth, in which the top and bottom teeth forcefully slide against each other, and/or excessive clenching of the jaw. Frequent, severe and/or sustained bruxism may lead to Temporomandibular Joint Syndrome (TMJS) and/or Temporomandibular Joint Disorder (TMJD). Bruxism is an oral para-functional activity, in that it is not typically a conscious action, and not related to normal oral functions such as, for example, eating or talking. Symptoms such as facial pain, neck pain, hypersensitive teeth, aching jaw muscles, headaches and other such symptoms may be associated with bruxism. Bruxism may also cause tooth wear, bite misalignment, and damage and/or breakage of teeth and dental restorations such as crowns and fillings. A device that preserves natural jaw motion while providing a barrier to the underlying teeth, may be effective dissipating forces generated due to grinding and preserving natural motion, while separation of the upper an lower jaws may minimize clenching and related complications and/or symptoms.

SUMMARY

In one aspect, a bruxism device, as embodied and broadly described herein, may include an articulation plate including a plurality of second articulating components and at least one articulating height-adjustable damper, wherein the articulation plate is configured to conform to at least one tooth, and a bite plate including a plurality of first articulating components, wherein the bite plate is adjustably connected to the articulation plate. Each second articulating component may articulately receive a single first articulating component. At least one articulating damper may be adjusted by height in order to space the upper and lower jaws apart.

In another aspect, an oral device, as embodied and broadly described herein, may include a first plate, a second plate, a coupling device configured to couple the first plate and the second, and an articulating coupler configured to allow for articulation between the first plate and the second plate coupled by the coupling device. The articulating coupler may include a plurality of first articulating components included on the first plate, and a plurality of second articulating components included on the second plate and configured to respectively engage with the plurality of first articulating components so as to guide a 360 degree relative motion of the first and second plates.

In another aspect, an oral device, as embodied and broadly described herein, may include a bite plate, an articulation plate, at least one post defined by a protrusion extending outward from a mating surface of the articulation plate, at least one housing defined by a recess in a mating surface of the bite plate, at a position corresponding to the at least one post, so as to receive a distal end of the at least one post therein and couple the articulation plate and the bite plate, at least one first articulating component included on the mating surface of the bite plate, and at least one second articulating component included on the mating surface of the articulation plate, at a position corresponding to the at least one first articulating component, an inner contour of the at least one second articulating component corresponding to an outer contour of the at least one first articulating component.

In some embodiments, a locking wafer positioned between the mating surfaces of the bite plate and the articulation plate, the locking wafer setting a prescribed distance between the mating surfaces of the bite plate and the articulation plate.

In some embodiments, a plurality of locking pins may extend between the bite plate and the articulation plate to fix the bite plate and the articulation plate in a selected position.

In some embodiments, the bite plate may be fitted on a separate oral device positioned on the teeth of one of the upper jaw or the lower jaw.

In some embodiments, the articulation plate may be fitted oral device positioned on the teeth of one of the upper jaw or the lower jaw.

In another aspect, a bruxism device, as embodied and broadly described herein, may include a bite plate including a plurality of first articulating components, an articulation plate including a plurality of second articulating components configured to respectively engage the plurality of first articulating components, and at least one articulating damper included in the articulation plate, wherein a position of the at least one articulating damper is configured to be adjusted in response to an external actuation force applied to the at least one articulating damper so as to adjust a separation distance between an upper jaw received in one of the bite plate or the articulation plate and a lower jaw received in the other of the bite plate or the articulation plate.

The details of one or more implementations are set forth in the accompanying drawings and the description below. Other features will be apparent from the description and drawings, and from the claims.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A is a disassembled perspective view of an exemplary bruxism device, in accordance with an embodiment as broadly described herein.

FIG. 1B is a perspective view of an inner side of the first plate of the exemplary bruxism device shown in FIG. 1A, in accordance with an embodiment as broadly described herein.

FIG. 1C is a perspective view of an inner side of a second plate of the exemplary bruxism device shown in FIG. 1A, in accordance with an embodiment as broadly described herein.

FIG. 2A is an assembled perspective view of the exemplary bruxism device shown in FIGS. 1A-1C, in accordance with an embodiment as broadly described herein.

FIG. 2B is a rear view of the exemplary bruxism device shown in FIG. 2A, in accordance with embodiments as broadly described herein.

FIG. 2C is a cross sectional view of the exemplary bruxism device taken along line C-C of FIG. 2, illustrating a coupling of a first articulating component and a second articulating component of the exemplary bruxism device, in accordance with an embodiment as broadly described herein.

FIG. 2D is a cross sectional view of the exemplary bruxism device taken along line D-D of FIG. 2, illustrating a coupling of a post and a housing of the exemplary bruxism device, in accordance with an embodiment as broadly described herein.

FIGS. 3A-3C are front assembled views of a bruxism device, in accordance with embodiments as broadly described herein.

FIGS. 4A-4C are disassembled perspective views of a bruxism device, in accordance with another embodiment as broadly described herein.

FIGS. 5A-5D illustrate bruxism devices worn by a user, in accordance with embodiments as broadly described herein.

DETAILED DESCRIPTION

The following detailed description sets forth various exemplary embodiments of a bruxism device. The description is not to be taken in a limiting sense, but is made merely for the purpose of illustrating the general principles as broadly described herein.

An oral bruxism device, as embodied and broadly described herein, may serve as an oral motion preservation device, preserving natural motion of the upper and lower jaws of a patient in the event of grinding and/or gnashing and/or clenching of the jaws. In some embodiments, an oral bruxism device may include a static bite plate positioned between the upper jaw and the lower jaw, and in particular, between the teeth of the upper jaw and the teeth of the lower jaw. This type of static bite plate may provide some protection against wear of the teeth of the upper and/or lower jaws. However, this type of static bite plate may still provide some resistance against the natural movement of the jaws, and thus may still transfer deleterious stress forces generated by a grinding motion onto the underlying teeth as well as the temporomandibular joints and connective soft tissues.

A bruxism device, in accordance with embodiments as broadly described herein, may allow for the natural movement of the jaws and dissipate the stress forces generated by the grinding motion. A bruxism device, as embodied and broadly described herein, may include, for example, a bite plate connected to an articulation plate. The bite plate may include a plurality of first articulating components extending generally perpendicularly from the bite plate. The articulation plate may include an inner material capable of being fit or conformed to the upper jaw or the lower jaw, or conformed to fit a form-fitted, or custom-fitted, dental/oral tray or other type of dental/oral mouth guard. The articulation plate may also include a plurality of second articulating components adapted so that each second articulating component may articulately receive a single one of the plurality of first articulating components included on the bite plate. The bruxism device may be mounted on the upper jaw or the lower jaw. A separation distance between the bite plate and the articulation plate may be adjusted by a damper, so that corresponding teeth may be separated by a predetermined distance from the bruxism device. The damper may be an articulating damper, or a non-articulating damper. When a user wearing the bruxism device grinds his/her teeth, the articulating components may provide a ‘gliding’ affect for the upper and/or lower jaws, so that the teeth do not encounter significant friction and the jaws do not encounter significant resistance. The non-constrained motion of the upper and lower jaws provided for by a bruxism device as embodied and broadly described herein may allow the jaws to maintain a substantially natural motion state.

An example implementation of a bruxism device, in accordance with one embodiment, is shown in the disassembled perspective view of FIG. 1A. The bruxism device 100 may include, for example, a first plate 10 selectively coupled to a second plate 50. For ease of discussion, the first plate may hereinafter be referred to as a bite plate 10, and the second plate may hereinafter be referred to as an articulation plate 50.

In some embodiments, the bite plate 10 may include a soft inner lining 12 and a rigid outer lining 14, the inner lining 12 being situated on an inner side of the bite plate 10 in which the teeth of one of the upper jaw or the lower jaw are to be received, and the outer lining 14 defining an outer side of the bite plate 10, facing the articulation plate 50. In some embodiments, the inner lining 12 may be made of a relatively soft, relatively resilient thermoplastic material such as, but not limited to, plastic. Properties of the material of the inner lining 12 may allow the inner lining 12 to conform to the teeth of a user while also cushioning the jaw against impact and teeth-gnashing forces. In some embodiments, the inner lining 12 may conform to, or receive, or be fitted over an oral device 200 (see FIGS. 5C and 5D), such as, for example a pre-existing oral device 200 which the user has positioned on the teeth, such as, for example, whitening trays and the like, which may have been previously customized for a particular user. In some embodiments, the outer lining 14 may be made of a relatively rigid, somewhat resilient thermoplastic material, such as, but not limited to, plastic. The inner lining 12 may be secured to the outer lining 14 by, for example, an adhesive, a lamination process, and the like. In some embodiments, as shown in FIG. 1B, a plurality of first articulating components 22 may extend outward from a surface 14 a of the outer lining 14. In some embodiments, the plurality of first articulating components 22 may extend outward from a surface 14 a of the outer lining 14 facing the articulation plate 50, and may extend in a direction that is substantially perpendicular to the surface 14 a of the outer lining 14. In some embodiments, a plurality of housings 24, or openings 24, or recesses 24, may also be defined in the surface 14 a of the outer lining 14.

The articulation plate 50 may be positioned opposite, or facing, the bite plate 10, and may be coupled to the bite plate 10. The articulation plate 50 may include a soft inner lining 52, as shown in FIG. 1C, and a rigid outer lining 54, the inner lining 52 being situated on an inner side of the articulation plate 50 in which the teeth of the other of the upper jaw or the lower jaw are to be received, and the outer lining 54 defining an outer side of the articulation plate 50, facing the bite plate 10. In some embodiments, the inner lining 52 may be made of a relatively soft, relatively resilient thermoplastic material such as, but not limited to, plastic. Properties of the material of the inner lining 52 may allow the inner lining 52 to conform to the teeth while also cushioning the jaw against impact and teeth-gnashing forces. In some embodiments, the inner lining 52 may conform to, or receive, or be fitted over another oral device 200 as described above, which the user has positioned on the teeth, and which may have been previously customized for a particular user, such as, for example, whitening trays and the like. In some embodiments, the outer lining 54 may be made of a relatively rigid, somewhat resilient thermoplastic material, such as, but not limited to, plastic. The inner lining 52 may be secured to the outer lining 54 by, for example, an adhesive, a lamination process, and the like. A plurality of second articulating components 62 and a plurality of posts 64 may be defined on a surface 54 a of the outer lining 54 of the articulation plate 50, facing the bite plate 10.

When the bite plate 10 and the articulation plate 50 are coupled, the surface 54 a of the articulation plate 50 on which the plurality of second articulating components 62 and the plurality of posts 64 are located may be positioned opposite, or facing, the surface 14 a of the outer liner 14 of the bite plate 10 on which the plurality of first articulating components 22 and the plurality of housings 24 are located. The plurality of second articulating components 62 may be engaged with the plurality first articulating components 22 provided on the surface 14 a of the bite plate 10. The plurality of posts 64 may be engaged with the plurality of housings 24 defined in the surface 14 a of the bite plate 10. The bite plate 10 may interface with the teeth of one of the upper jaw or the lower jaw, and the articulation plate 50 may interface with the teeth of the other of the upper jaw or the lower jaw so as to minimize the transfer of teeth-gnashing forces.

Each housing 24 formed in the surface 14 a of the bite plate 10 may be adapted to receive a single, corresponding post 64 of the articulation plate 50. When the posts 64 are received in their respective housings 24, the bite plate 10 and the articulation plate 50 may be coupled. In some embodiments, each post 64 may be fixed in its respective housing 24 by, for example, an adhesive or other attaching material. In some embodiments, each post 64 may be fixed in its respective housing 24 such that a gap is defined between the surface 14 a of the bite plate 10 and the surface 54 a of the articulation plate 50.

In the illustrated embodiment, the posts 64 formed on the example articulation plate 50 shown in FIG. 1A have a substantially circular cross section, and extend outward, in a substantially perpendicular direction from the surface 54 a of the articulation plate 50 in a substantially cylindrical form. The housings 24, which are formed as recesses in the example bite plate 10 shown in FIG. 1B, also have a substantially circular cross section, extending into the outer lining 14 of the bite plate 10 in a substantially cylindrical form, so as to correspond to the posts 64 and allow the posts 64 to be received and secured in the housings 24. However, in some embodiments, the posts 64 and housings 24 may have other cross sectional shapes. For example, in some embodiments, the posts 64 and housings 24 may have, for example, an elliptical cross section, a square cross section, a rectangular, cross section, or other polygonal cross sectional shape. In some embodiments, a cross sectional shape of the housing 24 corresponds to a cross sectional shape of the post 64 to facilitate insertion and securing of the post 64 in the housing 24. Insertion of one of the posts 64 of the articulating plate 50 into a corresponding housing 24 formed in the bite plate 10 is shown in FIG. 2D.

In some embodiments, the posts 64 may be made of a flexible, somewhat deformable material. Flexibility of the posts 64 fixed in the housings 24 may allow for some movement, such as, for example, longitudinal movement between the bite plate 10 and the articulation plate 50 (in a front and rear direction of the jaws, as shown by the arrow Z in FIG. 2A), and/or transverse movement between the bite plate 10 and the articulation plate 50 (in a right and left direction of the jaws, as shown by the arrow X in FIG. 2A), some compressive movement between the bite plate 10 and the articulation plate 50 (as shown by the arrow Y in FIG. 2A), and/or a combination of the longitudinal and transverse movement which may produce a rotational movement (as shown by the arrows R1 and R2 in FIG. 2A). Flexibility of the posts 64 fixed in the housings 24 and the resulting flexibility in the X, Y, Z, R1 and R2 directions as shown may provide for both shock absorption and stability between the bite plate 10 and the articulation plate 50.

In some embodiments, while being flexible, the posts 64 may also be substantially solid, and relatively free of openings that may otherwise entrap debris and/or moisture, and relatively tightly fitted in the housings to avoid entrapment of debris and/or moisture in spaces between the posts 64 and the housings 24.

As shown in FIG. 2C, each second articulating component 62 may be adapted to articulately receive, and/or engage with, a single, corresponding first articulating component 22. In some embodiments, the plurality of first articulating components 22 and plurality of second articulating components 62, may, in a received or engaged arrangement, be referred to together as an articulating connector.

In the example embodiment shown in FIGS. 1A-1B and 2C, each of the plurality of first articulating components 22 is defined by a protrusion that extends outward, from the mating surface 14 a of the bite plate 10 and having a substantially semispherical shape or surface 22 a. In the example embodiment shown in FIGS. 1A-1B and 2C, each of the plurality of second articulating components 62 includes a receiving surface 62 a located on the mating surface 54 a of the articulation plate 50, at positions corresponding to the positions of the plurality of first articulating components 22. The receiving surface 62 a of each of the second articulating components may have a curved, or arcuate, contour, that facilitates essentially 360 degree movement of the semispherical surface 22 a of the first articulating component 22 received therein. The curved indentation, or curved recess, formed by the receiving surface 62 a allows the first articulating component 22 to be received in and move freely within the second articulating component 62 without becoming easily disengaged.

In some embodiments, the first and second articulating components 22 and 62 may include, for example, ball and trough components, ball-in-socket components, two plates with a mobile/sliding core positioned between the two plates, and other such components that, with the articulating components in an aligned and engaged arrangement, would provide for an articulating relationship between the bite plate 10 and the articulation plate 50.

In the views shown in FIGS. 1A, 2A-2B and 3A-3B, the bruxism device 100 is oriented with the bite plate 10 at an upper portion of the device 100 and the articulation plate 50 at a lower portion of the device 100. When the bite plate 10 and the articulation plate are oriented in this manner, and coupled in the manner shown in FIG. 2, the device 100 may be worn so that the teeth of the upper jaw are received in the inner lining 12 of the bite plate 10, and the teeth of the lower jaw are received in the inner lining 52 of the articulation plate 50, such that the device 100 is essentially “worn” or “mounted” on the upper jaw. The bite plate 10 and articulation plate 50 of the bruxism device 100 are oriented as shown in FIGS. 1A, 2A and 2B simply to facilitate description of the features of the device 100. In some embodiments, the device 100 may be worn in a position inverted from what is shown in FIGS. 1A, 2A-2B and 3A-3B. That is, in some embodiments, the teeth of the bottom jaw may be received in the inner lining 12 of the bite plate 10, and the teeth of the upper jaw may be received in the inner lining 52 of the articulation plate 50, such that the device 100 is essentially “worn” or “mounted” on the lower jaw.

In the example implementation shown in FIGS. 1A-1C, 2A-2D and 3A-3B, the first articulating components 22 and the housings 24 are located on the surface 14 a of the bite plate 10, and the second articulating components 62 and the posts 64 are located on the surface 54 a of the articulating plate 50. However, in some embodiments, the first articulating components 22 and the housings 24 may be located on the surface 54 a of the articulation plate 50, and the second articulating components 62 and the posts 64 may be located on the surface 14 a of the bite plate 10. Other various arrangements of the first and second articulating components 22 and 62, the housings 24 and the posts 64 on the surfaces 14 a and 54 a of the bite plate 10 and the articulating plate 50 may also be implemented, as long as engagement between the first and second articulating components 22 and 62, and between the posts 64 and housings 24, may be maintained. For example, while the illustrated embodiment includes the “male” articulating component 22 on the bite plate 10 and the “female” articulating component 62 on the articulation plate 50, respective installation of the articulating components 22 and 62 on the bite plate 10 and the articulation plate 50 may be reversed, for some, or for all, of the pairs of articulating components 22/62. Similarly, while the illustrated embodiment includes the “male” post 64 on the articulation plate 50 and the “female” housing 24 in the bite plate 10, respective installation of the housings 24 and posts 64 on the bite plate 10 and the articulation plate 50 may be reversed, for some, or for all, of the pairs of housings 24 and posts 64.

In the illustrated embodiment shown in FIGS. 1A-1C, the bite plate 10 and articulation plate 50 includes two pairs of first and second articulating components 22 and 62 arranged on a first side (for example, a left side) of the bruxism device 100, two pairs of first and second articulating components 22 and 62 arranged on a second side (for example, a right side) of the bruxism device 100, and one pair of first and second articulating components 22 and 62 arranged at a front central portion of the bruxism device 100, or five total pairs of first and second articulating components 22 and 62 movably coupling the bite plate 10 and the articulation plate 50. However, in some embodiments, more, or fewer, pairs of first and second articulating components 22 and 62 may be arranged along the mating surfaces of the bite plate 10 and the articulation plate 50, depending, for example, on a size of the bruxism device, and amount of correction and/or compensation required, and other such factors.

In some embodiments, an articulating damper 56 may be provided in, for example, the articulating plate 50. The articulating damper 56 may include a mechanism that adjusts and maintains a desired position between the bite plate 10 and the articulation plate 50, and thus a desired amount of separation between the corresponding teeth of the upper jaw and the lower jaw. In some embodiments, the articulating damper 56 may be included at a front portion of the articulation plate 50, so that the articulating damper 56 is easily accessible and may provide for adjustment of the separation distance between the front teeth, which may facilitate the further dissipation of grinding and clenching forces. In some embodiments, this separation distance may be between approximately 0.0 mm and 50.0 mm, depending, for example, on the size of a particular bruxism device and/or the individual needs and/or comfort of a particular user.

FIG. 3A is a front view of the exemplary bruxism device 100, in which the articulating damper 56 has not been actuated. In the example shown in FIG. 3B, the articulating damper 56 is provided at a front, or anterior, portion of the device 100, and has been actuated to increase a separation distance, or damper opening, between the front teeth received in the bite plate 10 and the front teeth received in the articulation plate 50. The articulating damper 56 may employ, for example, a cam, a spring, a piston, a jack, a wedge and the like to generate and maintain the separation distance, and may be adjusted by, for example, a knob, a hex key, a button and the like. In some embodiments, the articulating damper 56 may exert a force on an underside of the outer lining 54, pushing the surface 54 a in the direction of the surface 14 a, and consequently increasing a separation distance between the teeth received in the articulation plate 50 and the bite plate 10 in the general area of the damper 56. In some embodiments, this force exerted by the articulating damper 56 may be exerted on a corresponding one of the second articulating components 62. In other embodiments, actuation may cause a portion of the damper 56 to extend up through the surface 54 a of the articulation plate 50 to push on the surface 14 a of the bite plate 10.

As shown in FIG. 3C, in some embodiments, the damper 56 may be coupled to a riser 56A. In response to actuation of the damper 56, the riser 56A may protrude through an opening in the articulation plate 50 and an opening in the bite plate 10, causing the riser 56A to directly contact the teeth received in the bite plate 10 to maintain a separation distance between the bite plate 10 and the teeth.

In some embodiments, the bite plate 10 and the articulation plate 50 may be secured in a desired position to limit relative movement of the jaws in a particular direction, or to limit relative movement of the jaws to a particular amount. For example, as shown in FIG. 4A, in some embodiments, a locking wafer 80 may be inserted between the bite plate 10 and the articulation plate 50 to secure, or lock, a relative position of the bite plate 10 and the articulation plate 50. The locking wafer 80 may include channels 82 extending longitudinally along opposite side portions of the locking wafer 80. The locking wafer 80 may slide into place on the articulation plate 50, as illustrated by the dotted lines shown in FIG. 4A, with the posts 64 on opposite sides of the articulation plate 50 sliding along the channels 82 on the opposite sides of the locking wafer 80 to guide the locking wafer 80 into position on the articulation plate 50. The locking wafer 80 may remain secured in its position between the bite plate 10 and the articulation plate 50 due to some amount of friction between the locking wafer 80 and the bite plate 10 and/or articulation plate 50, as well as the positioning of the posts 64 in the channels 82.

In some embodiments, a plurality of first locking pins 84 and a plurality of second locking pins 86 may secure, or lock, a relative position of the bite plate 10 and the articulation plate 50, as shown in FIG. 4B. In some embodiments, the plurality of first locking pins 84 and/or the plurality of second locking pins 86 may be removable from and insertable into corresponding openings in the articulation plate 50 and the bite plate 10, respectively, so that a desired position of the bite plate 10 and the articulation plate 50 may be selected and secured, and adjusted as necessary. In some embodiments, the plurality of first locking pins 84 and/or the plurality of second locking pins 86 may be, for example, tension mounted so that pressure applied to the first locking pins 84 and/or the second locking pins 86 may cause the first locking pins 84 and/or the second locking pins 86 to be retracted and/or extended.

In some embodiments, the bruxism device may include both the locking wafer 80 and the plurality of first locking pins 84 and/or the plurality of second locking pins 86, as shown in FIG. 4C. In this embodiment, as the locking wafer 80 slides into place, the plurality of first locking pins 84 and/or the plurality of second locking pins 86 may extend from the respective bite plate 10 and/or articulation plate 50 for engagement with the locking wafer 80. In this manner, the locking wafer 80 may be positioned and secured between the articulation plate 50 and the bite plate 10 to establish and secure a predetermined position of the articulation plate 50 and the bite plate 10.

Securing, or locking, the articulation plate 50 and the bite plate 10 with either the locking wafer 80 as shown in FIG. 4A, the plurality of first locking pins 84 and/or the plurality of second locking pins 86 as shown in FIG. 4B, or both the locking wafer 80 and the locking pins 84 and/or 86 as shown in FIG. 4C, may cause the device to be in a static, non articulating state, with the bite plate 10 and the articulation plate 50 maintained in a desired relative position.

In use, as shown in FIG. 5A, the bruxism device 100 may be worn, or mounted, on the upper jaw, with the teeth of the lower jaw received in the inner lining 52 of the articulation plate 50 when the jaws are in a closed position. As shown in FIG. 5B, the bruxism device 100 may be worn, or mounted, on the lower jaw, with the teeth of the upper jaw received in the inner lining 12 of the bite plate 10 when the jaws are in the closed position. The bruxism device 100 may be available in a variety of sizes, such as, for example, small, medium, large, youth, adult and the like, so that the bruxism device 100 may be adapted to a vast majority of jaw sizes.

In use, as shown in FIG. 5C, the bruxism device 100 may be worn, or mounted, on the upper jaw, with a separate oral tray 200 positioned on the teeth of the lower jaw, and the separate oral tray 200 being received in, or fitted in, the inner lining 52 of the articulation plate 50 when the jaws are in a closed position. As shown in FIG. 5D, the bruxism device 100 may be worn, or mounted, on the lower jaw, with the separate oral tray 200 on the teeth of the upper jaw, and the separate oral tray 200 being received in, or fitted in, the inner lining 12 of the bite plate 10 when the jaws are in the closed position. As noted above, the bruxism device 100 may be available in a variety of sizes, to adapt to the vast majority of jaw sizes and/or to accommodate various different types of separate, customized trays which the user may already have on hand.

In some embodiments, an impression of the relevant mouth cavity may be taken, and then one or both of the plates may be conformed to the impression. Thereafter, the articulating damper 56 may be actuated to adjust and set an amount of separation between the articulation plate 50 and the bite plate 10 that will yield the desired amount of separation between the corresponding teeth of the upper and lower jaws. The bruxism device 100 may then be mounted to either the upper jaw, as shown in FIG. 4A, or the lower jaw, as shown in FIG. 4B. In mounting the bruxism device 100 to the upper jaw, the teeth of the upper jaw may be received in, for example, the inner lining 52 of the articulation plate 50, so that, when the jaws are in the closed position, the teeth of the lower jaw are received in the inner lining 12 of the bite plate 10. Similarly, in mounting the bruxism device 100 to the lower jaw, the teeth of the lower jaw may be received in, for example, the inner lining 52 of the articulation plate 50, so that, when the jaws are in the closed position, the teeth of the upper jaw are received in the inner lining 12 of the bite plate 10.

In some embodiments, the bruxism device 100 may be customized by the user so that the bite plate 10 and/or the articulation plate 50 may be custom fitted to the particular user's teeth and jaws. For example, in some embodiments, the bite plate 10 and/or the articulation plate 50 may be heated and then positioned in place on the user's teeth/jaws, so that the material of the inner lining 12 of the bite plate 10 and/or the material of the inner lining 52 of the articulation plate 50 may be molded to conform to the user's teeth and jaws. This customized, conformal shape of the inner lining 12 and/or the inner lining 52 may then set as the inner lining 12 and/or the inner lining 52 cools. In some embodiments, this type of customization may be done by the user, providing a less expensive and faster customized solution than a custom device made from impressions taken by a dental professional.

As noted above, in some embodiments, the bite plate 10 and/or the articulation plate 50, and in particular the inner lining 12 of the bite plate 10 and/or the inner lining 52 of the articulation plate 50, may be adapted to receive another type of oral device and/or tray 200 that a user may already have on hand, such as, for example, night guard trays or whitening trays, orthodontic trays, and other such oral devices that may have been previously customized for the user which the user may wish to wear in conjunction with the bruxism device 100. In this instance, the customized tray(s) 200 may be worn on the teeth, and then the bruxism device 100 may be worn over the tray(s) 200. This may allow the user to benefit from previous customization of the tray(s) 200, continue the treatment intended by the tray(s) 200, and still reap the additional benefits provided by the bruxism device 100.

A bruxism device 100, as embodied and broadly described herein, may enable articulating movement of the upper and lower jaws in any number of different directions due to, for example, the essentially 360 degree motion supported by the plurality of first articulating components respectively engaged with the plurality of second articulating components, together with the flexibility and multiple degrees of freedom of motion supported by the plurality of flexible posts 64 respectively received in the plurality of housings 24. Thus, when wearing the bruxism device 100, if clenching does occur, the jaw may articulate in a manner corresponding to its naturally intended movement and dissipate forces on the temporomandibular joint, with the distance between certain teeth of the upper and lower jaws spaced a predetermined distance apart due to the height adjustment provided by the articulating damper 56, rather than remaining in a static clenched state in which damage to the joints and connective tissue may occur. Moreover, when wearing the bruxism device 100, if grinding does occur, the jaw may experience a “gliding” effect due to the plurality of first and second articulating components 22 and 62, without encountering the friction and/or resistance normally encountered when grinding, maintaining the jaws in a natural motion state and avoiding the typical wear, pain and damage normally associated with grinding.

The foregoing provides a detailed description of various exemplary embodiments. It is understood that modifications may be made without departing from the spirit and scope as broadly described herein and as set forth in the following claims.

While certain features of the described implementations have been illustrated as described herein, many modifications, substitutions, changes and equivalents will now occur to those skilled in the art. It is, therefore, to be understood that the appended claims are intended to cover all such modifications and changes as fall within the scope of the implementations. It should be understood that they have been presented by way of example only, not limitation, and various changes in form and details may be made. Any portion of the apparatus and/or methods described herein may be combined in any combination, except mutually exclusive combinations. The implementations described herein can include various combinations and/or sub-combinations of the functions, components and/or features of the different implementations described. 

What is claimed is:
 1. An oral device, comprising: a first plate; a second plate; a coupling device configured to couple the first plate and the second plate, the coupling device including at least one post having a first end portion coupled to the first plate and a second end portion coupled to the second plate, wherein the at least one post has a solid cross section, with a longitudinal length of the at least one solid post extending substantially linearly between the first plate and the second plate; and an articulating coupler configured to allow for articulation between the first plate and the second plate coupled by the coupling device.
 2. The device of claim 1, wherein the solid cross section of the at least one post extends continuously, in a transverse direction across the at least one post, from a first peripheral edge portion to a second peripheral edge portion of the at least one post.
 3. The device of claim 1, wherein the at least one post includes: a first post having a solid cross section, the first post having a first end portion fixedly coupled to the first plate, and a second end portion fixedly coupled to a first housing defined as by a first recess in the second plate; and a second post having a solid cross section, the second post having a first end portion fixedly coupled to the first plate or the second plate, and a second end portion fixedly coupled to a second housing defined by a second recess in the second plate.
 4. The device of claim 3, wherein a cross sectional shape of the solid cross section of the first post corresponds to a cross sectional shape of the first housing, a cross sectional shape of the solid cross section of the second post corresponds to a cross sectional shape of the second housing, and the first post and the second post are each made of a flexible material so as to allow for six degree of freedom movement between the first and second plates within a range of motion of the first post and the second post.
 5. The device of claim 1, wherein the articulating coupler includes: a plurality of first articulating components included on one of the first plate or the second plate, each of the first articulating components including a protrusion having a substantially semispherical shape extending outward from a mating surface of the first plate toward a mating surface of the second plate in the coupled state of the first and second plates; and a plurality of second articulating components included on the other of the first plate or the second plate, each of the second articulating components including a receiving surface having a concave curved contour so as to interact with the semispherical shape of the first articulating component so as to respectively engage with the plurality of first articulating components and guide a relative motion of the first and second plates.
 6. The device of claim 1, further comprising an articulating damper included in one of the first plate or the second plate, wherein the articulating damper includes: a cam provided in an anterior portion of the one of the first plate or the second plate; and a riser operably coupled to the cam, wherein the riser is configured to impart a separating force on one of the first plate or the second plate in response to an external actuation force applied to the cam, the separating force adjusting a distance between at least one tooth received in the one of the first plate or the second plate and at least one tooth received in the other of the first plate or the second plate.
 7. The device of claim 6, wherein the riser is configured to extend out through an opening in the one of the first plate or the second plate in response to the external actuation force to impart the separating force on the other of the first plate or the second plate.
 8. The device of claim 6, wherein the riser is configured to contact an interior lining of the one of the first plate or the second plate and impart the separating force on the interior lining of the first plate or the second plate in response to the external actuation force.
 9. The device of claim 1, further comprising a locking wafer selectively positioned between mating surfaces of the first plate and the second plate to set a prescribed distance between the mating surfaces of the first plate and the second plate, the locking wafer including: a wafer body; and at least one channel extending longitudinally along the wafer body, at a position corresponding to the at least one post such that the at least one post is slidably received in the at least one channel.
 10. The device of claim 1, further comprising a plurality of locking pins that extend through the first plate and into the second plate at a corresponding plurality of different positions to fix the first plate and the second plate in a selected position, the selected position including at least one of a fixed lateral position of the first plate relative to the second plate, a fixed transverse position of the first plate relative to the second plate, or a fixed vertical position of the first plate relative to the second plate to fix a vertical separation distance between the first plate and the second plate.
 11. An oral device, comprising: a first plate configured to be positioned on one of an upper jaw or a lower jaw; a second plate configured to be positioned on the other of the upper jaw or the lower jaw; a coupling device configured to movably couple the first plate and the second plate; an articulating coupler configured to guide relative movement between the first plate and the second plate coupled by the coupling device; and an articulating damper included in the first plate, wherein the articulating damper includes: a cam provided in an anterior portion of the first plate; and a riser operably coupled to the cam, wherein the riser is configured to impart a separating force on one of the first plate or the second plate in response to an external actuation force applied to the cam, the separating force adjusting a distance between at least one tooth received in the first plate and at least one tooth received in the second plate.
 12. The device of claim 11, wherein the riser is configured to selectively extend through an opening in the first plate and contact a mating surface of the second plate so as to adjust a separation distance between respective mating surfaces of the first plate and the second plate and adjust the distance between the at least one tooth received in the first plate and the at least one tooth received in the second plate.
 13. The device of claim 11, wherein the riser is configured to selectively contact an interior lining of the first plate to adjust a distance between the at least one tooth received in the first plate and a mating surface of the first plate, so as to adjust the distance between the at least one tooth received in the first plate and the at least one tooth received in the second plate.
 14. The device of claim 11, wherein the riser is configured to move in a first direction to increase the distance between at least one tooth received in the first plate and the at least one tooth received in the second plate when the external actuation force is applied to the cam in a first direction, and the riser is configured to move in a second direction to decrease the distance between the at least one tooth received in the first plate and at least one tooth received in the second when the external actuation force is applied to the cam in a second direction, the second direction being opposite the first direction.
 15. The device of claim 11, wherein the coupling device includes a plurality of posts, each of the plurality of posts including: a first end portion coupled to the first plate; and a second end portion coupled to the second plate, wherein each of the plurality of posts is defined by a solid protrusion made of a flexible material and having a solid cross section, each of the plurality of posts extending linearly between the first plate and the second plate, and wherein the plurality of posts are configured to allow for six degree of freedom movement between the first plate and the second plate within a range of motion of the plurality of posts.
 16. The device of claim 11, wherein the articulating coupler includes: a plurality of first articulating components included on one of the first plate or the second plate, each of the first articulating components including a protrusion having a convex contour extending outward from a mating surface of the first plate toward a mating surface of the second plate; and a plurality of second articulating components included on the other of the first plate or the second plate, each of the second articulating components including a concave receiving surface configured to engage the convex contour of a corresponding first articulating component so as to guide relative movement of the first and second plates.
 17. An oral device, comprising: a first plate configured to be positioned on one of an upper jaw or a lower jaw; a second plate configured to be positioned on the other of the upper jaw or the lower jaw; a coupling device including at least one post extending between the first plate and the second plate and configured to movably couple the first plate and the second plate; an articulating coupler coupled to the first plate and the second plate and configured to guide relative movement between the first plate and the second plate coupled by the coupling device; and a locking wafer selectively positioned between a mating surface of the first plate and a mating surface of the second plate, the locking wafer including: a wafer body; and at least one channel extending longitudinally along the wafer body, at a position corresponding to the at least one post such that the at least one post is slidably received in the at least one channel.
 18. The device of claim 17, wherein the first plate has a U-shaped contour and the second plate has a U-shaped contour corresponding to the contour of the first plate, and wherein the at least one post includes a plurality of posts positioned at varying intervals along the U-shaped contour of the first plate and the U-shaped contour of the second plate, and wherein the at least one channel includes a plurality of channels defined in the wafer body, at positions corresponding to the plurality of posts.
 19. The device of claim 18, wherein the wafer body has a U-shaped contour corresponding to the U-shaped contour of the first plate and the U-shaped contour of the second plate, and wherein the plurality of posts includes at least one first post arranged on respective first lateral sections of the first plate and the second plate, and at least one second post arranged on respective second lateral sections of the first plate and the second plate, and wherein the plurality of channels includes: a first channel defined in a first lateral section of the wafer and configured to slidably receive the at least one first post; and a second channel defined in a second lateral section of the wafer and configured to slidably receive the at least one second post. 